View clinical trials related to Primary Total Knee Arthroplasty.
Filter by:Today, primary total knee arthroplasty (TKA) is considered to be a safe and successful therapy for end-stage osteoarthritis of the knee. In the past decades, different total knee prostheses have been released on the market showing minor or more important differences in design features. Smith and Nephew® (Memphis, Tennessee, USA) introduced a new posterior sacrificing (PS) design in 2005, which was called Journey BCS®, a bicruciate stabilizing design throughout knee flexion. This second generation guided motion total knee system prevents not only tibial posterior translation, but also limits tibial anterior translations by articulation between post and femoral box. As a consequence of the good results in the older population group, an increasing amount of younger and more active patients receiving TKA can be observed. In general, this age group scores remarkable lower in satisfaction. A possible explanation is the absence of anterior cruciate ligament (ACL) in these designs, which still causes abnormal kinematics. Therefore, in a further step, the research has been focusing on preserving both cruciate ligaments within the same basic design as Journey BCS®, keeping the curvature and contour of the femoral and tibial component, as well as the joint line principles. Consequently, a bi-cruciate retaining (BCR) design was developed, preserving both the ACL and posterior cruciate ligament (PCL) vessels. BCR TKA of Smith & Nephew, called Journey XR®, has a clear potential to result in a better functional outcome while avoiding the limitations and complications of previous other designs so that previously disappointing results of the pasts are not confirmed. As a result, patients are expected to be more capable to return to an active lifestyle with normal kinematics and proprioception of the knee. New insights in biomechanics, kinetics and proprioception in native knee and TKA make higher interest in BCR TKA inevitable. Yet, there is no prospective clinical trial available that compares Journey BCS® with Journey XR® from Smith & Nephew in regard to PROMS, functional performance including gait analysis, survival and revision rates.
Total knee arthroplasty (TKA) is one of the most common orthopedic surgical procedure and is associated with severe pain in the immediate postoperative period, thus limiting early recovery. Postoperative pain management requires multimodal analgesia, combining drugs and injection of a local anesthetic (LA). For optimal pain management, several peripheral nerve blocks should be associated. Thus, a recent study shows that the combination of IPACK, femoral triangle and obturator nerve blocks (ITO blocks) provides an effective pain control after TKA. The hypothesis of this study is that a quadruple nerve block combining femoral, sciatic, obturator and lateral femoral cutaneous nerve blocks (quadri-block) could improve analgesia after TKA. The main objective of this monocenter, prospective, randomized, open-label, controlled trial is to assess the effect of quadri-block on morphine consumption after TKA compared to ITO blocks.
This prospective, double-blinded, randomized controlled study evaluates the effects of peripheral nerve blocks with and without local infiltration analgesia for postoperative pain management after primary total knee arthroplasty. There are no any studies that show the demand for local infiltration analgesia when together peripheral nerve blocks are performed. Patients undergoing primary total knee arthroplasty will be randomly assigned to receive local infiltration analgesia with or without (placebo group) local anesthetic. All patients will receive peripheral nerve blocks for postoperative analgesia: femoral triangle and distal adductor canal blocks. Comparison of these two groups of patients will be based on the effects on postoperative pain control, the extent of motor blockade, the ability of early leg motion and ambulation, patients satisfaction rates over the time of clinical recovery. Consequently, the investigators hypothesized that peripheral nerve blocks (femoral triangle and distal adductor canal blocks) with and without local infiltration analgesia provide similar postoperative pain relieving effects and the ability of early mobilization after total knee arthroplasty.
To compare non-prescription sleep aids (low-dose diphenhydramine and melatonin) to sleep hygiene education for improving postoperative sleep quality after total joint arthroplasty.
Intravenous dexmedetomidine is a drug used in reanimation with sedative, anxiolytic and sympatholytic properties. Recent studies showed useful properties for anaesthesia : decrease of morphine consumption after a various type of surgery, sedative effect on patients under regional anaesthesia, prolongation of central or peripheral regional block. Dose-ranging study for intravenous dexmedetomidine showed that 2 µg/kg is an effective dose to prolong interscalene block. This study aims to determine if intravenous dexmedetomidine at 2 µg/kg allows a longer analgesic duration after a quadri-block (femoral, subgluteal sciatic, obturator and alateral cutaneous nerve blocks) with ropivacaine 0.32% for total knee replacement under regional anaesthesia.
Patients having a hip or knee replacement can lose almost a third of their blood during and after the operation. Many patients, especially those who are older will need a blood transfusion, suffer from anaemia, or have a slow recovery after the operation. Tranexamic acid is a medication used to treat or prevent excessive blood loss, but in joint replacements, is only used in patients who are likely to bleed a lot. This trial aims to find out how well tranexamic acid works to reduce blood loss after the operation in a large group of patients having a hip or knee replacement, including those at risk of blood clots. This study also aims to find out how safe tranexamic acid treatment is to use in different patients and the best way to give tranexamic acid (in tablet form or through a drip), as well as how much to give and how long it should be given after an operation. All adults awaiting non-emergency hip or knee replacement surgery will be considered. Patients who are suitable and agree to take part are randomly placed in one of two treatment groups: receiving tranexamic acid during the hip or knee operation through a drip, or receiving treatment during the hip or knee operation through a drip plus taking a tablet every 8 hours up to 24 hours after the operation. Initially, a no treatment group was included, however, one year after the trial started, the Data Monitoring and Ethics Committee who check safety, advised to stop allocation of patients to the no treatment group. For all patients, blood loss is recorded up to 48 hours after surgery. Blood samples are also taken in order to measure how well the heart and blood clotting systems are working. If the routine kidney function tests taken before the operation show less than normal function, a lower dose of tranexamic acid is used. It is expected that patients who receive the tranexamic acid will lose much less blood during and after their operation, and so be less likely to need a blood transfusion, have reduced stress on the heart and have an easier recovery. It is thought that patients with a history of clots are more likely to have another clot when taking tranexamic acid. Therefore, this trial will include these patients to try and find out if this is true as these patients will benefit the most from reduced blood loss.
The purpose of this study is to learn if using an Interspace between the Popliteal Artery and Capsule of the Knee (iPACK) injection technique (also called a "nerve block") that numbs the nerves going to the back part of the knee to aid in physical therapy after surgery. The iPACK technique uses a numbing solution (local anesthetics) that is injected behind the knee to reduce pain and to help straighten the knee. This block may affect movement in the leg and make the legs weak, but thing is rare. A few institutions use the iPACK block for patients having total knee replacements, with the hope of providing good pain relief combined with improved mobility after surgery.
Total knee arthroplasty can cause severe postoperative pain, and patients typically receive oral opioid analgesics for over 2 weeks. Side effects of pain management may impair participation in physical therapy and diminish patient satisfaction. Anecdotally, it seems that pregabalin is very helpful to patients after total knee arthroplasty. However, pregabalin can have side effects. It is not clear how much pregabalin to prescribe. Low doses may not be effective, but use of high doses may increase the incidence and severity of side effects.The purpose of this study is to determine which dosage of pregabalin is the most effective at reducing pain after knee surgery.